KR101152274B1 - Apparatus for recovering refrigerant - Google Patents

Abstract

PURPOSE: A refrigerant recovering device with refrigerant recovering tank having a coil inside is provided to reduce a time to decrease temperature by a using direct cooling method because a coil in which cooling water circulates is inside. CONSTITUTION: A refrigerant recovering device with refrigerant recovering tank having a coil inside comprises a compressor(141), a condenser(142), a coil(145), and an expansion valve(144). The coil is placed inside a recovering tank(110) and the heat exchange between refrigerants and heat exchange refrigerants is rapidly generated. A pressure sensor for recovered refrigerants(122) and a solenoid valve(123) are placed near the other side of a return line(120). When recovering the refrigerants from an object to be wasted, an operation of the solenoid valve and a recovering compressor is controlled if the pressure sensor for recovered refrigerants is out of a set pressure value. If exceeding the value, the solenoid valve is opened and the recovering compressor is driven. If not, the solenoid valve is closed and the recovering compressor is stopped.

Description

Refrigerant recovery device with coil recovery tank with built-in coil {APPARATUS FOR RECOVERING REFRIGERANT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerant recovery device, and more particularly, to a refrigerant recovery device capable of effectively and quickly recovering a refrigerant in a waste object by connecting to a waste object such as a waste refrigerator or a waste vehicle.

Recently, as small refrigerators such as air conditioners, refrigerators, and water purifiers are widely used for vehicle air conditioners or households, disposal of refrigerants included in these refrigerators has emerged as an important environmental problem.

In particular, refrigerants of chlorofluorocarbon (CFC) series such as R-11 and R-12 and refrigerants of chlorofluorocarbon (HCFC) series such as R-123 and R-12 are the main culprit of ozone layer destruction and global warming. Hydrogen fluorocarbon (HFC) -based refrigerants are defined as global warming materials and need to be strictly managed so as not to be released into the atmosphere by recovering and appropriately treating them.

For example, when disposing of a vehicle, air conditioner refrigerants must be recovered first, but until now, there are very few junkyards equipped with facilities for recovering air conditioner refrigerants of vehicles.

Even if there is a facility to recover the refrigerant, the recovery efficiency is very low in the external environment factors, that is, seasonal factors such as summer and high temperature working environment, so the refrigerant is often leaked into the atmosphere during the junk car process.

This problem applies to the disposal of other small refrigerators such as refrigerators and domestic air conditioners.

Therefore, in order to solve such a problem, a refrigerant recovery device capable of efficiently recovering refrigerant of a plurality of small refrigerators such as a vehicle air conditioner, a domestic air conditioner, a refrigerator, a water purifier, and the like has been disclosed.

However, in the conventional refrigerant recovery apparatus, the recovery tank is cooled by a water cooling method or an air cooling method so that the recovery speed of the refrigerant is low, the recovery rate is low, and the size of the recovery tank for accommodating the recovered refrigerant should be made larger than necessary. There is an inefficient problem.

In addition, the recovery tank of the conventional refrigerant recovery device has a high pressure due to the gas remaining inside the tank during refrigerant recovery, resulting in a low recovery amount and a recovery rate, and storing only about 60% of the actual capacity by the space occupied by the gas inside the tank. There is a problem.

Published Patent Publication No. 10-2001-0022761 Patent Publication No. 10-2004-0003295

The present invention is to solve the above problems, compared to the conventional water-cooled or air-cooled system by reducing the time to reduce the temperature in the recovery tank, to increase the refrigerant recovery rate, to continuously recover the refrigerant, and to achieve a compact and lightweight And an economical refrigerant recovery device.

Refrigerant recovery apparatus of the present invention includes a recovery tank for recovering the liquid and gaseous refrigerant from the waste object; A recovery line having one side connected to the recovery tank and the other side connected to the waste object to provide a transfer path of the refrigerant; A recovery compressor interposed in the recovery line to form the inside of the recovery tank in an initial vacuum state and suck the refrigerant from the waste object; A cooling circuit connected to the recovery tank to phase change the refrigerant in the gas phase introduced into the recovery tank into a liquid phase; And an external storage container connected to the recovery tank for receiving and storing the liquid refrigerant in the recovery tank, wherein the cooling circuit includes a cooling compressor connected to the recovery tank, a condenser connected to the cooling compressor, One side is connected to the cooling compressor and the other side is connected to the condenser and includes a coil in which the liquid heat exchange refrigerant is circulated therein and an expansion valve interposed between the coil and the condenser, the coil is disposed in the recovery tank Heat exchange between the refrigerant and the heat exchange refrigerant is achieved.

A recovery refrigerant pressure sensor and a solenoid valve are provided near the other side of the recovery line. When the recovery refrigerant pressure sensor is out of a preset pressure value when the refrigerant is recovered from the waste object, the opening and closing control of the solenoid valve is performed. And controlling the driving of the recovery compressor, opening the solenoid valve when the pressure value is exceeded, starting driving the recovery compressor, closing the solenoid valve when the pressure is lower than the pressure value, and It is desirable to stop the drive.

A load cell is installed in the recovery tank, and when a predetermined amount of refrigerant is filled in the recovery tank, the driving of the recovery compressor is stopped and the liquid refrigerant is transferred to the external storage container.

The recovery tank may include an internal pressure sensor and a purge valve to automatically open the purge valve when a pressure value exceeding a value preset in the internal pressure sensor is detected.

The recovery tank is provided with a temperature sensor, it is preferable to automatically control the operation of the cooling circuit when out of the range of the preset value.

According to the refrigerant recovery device of the present invention, by using a direct cooling method by embedding a coil in which the refrigerant is circulated inside so that the temperature inside the recovery tank can be quickly lowered, the temperature is lowered compared to the conventional indirect cooling method of water cooling and air cooling. The time can be shortened, the refrigerant recovery rate can be increased, and the effect of performing the same operation continuously can be achieved.

In addition, a discharge path for discharging the remaining gas in the recovery tank is formed, so that the refrigerant occupies the space occupied by the remaining gas without occupying the space occupied by the remaining gas to the space occupied by the remaining gas. It provides the effect that the recovery rate of the refrigerant to be recovered in the conventional art increases.

Therefore, even if the refrigerant is recovered using the same size recovery tank as in the prior art, the filling rate is high, so that the recovery tank does not need to be made larger than necessary, so that it can be miniaturized, thus saving resources and transporting and storing the refrigerant recovery device. Become efficient.

1 is a schematic diagram showing a refrigerant recovery device according to an embodiment of the present invention.
2 is a view schematically showing a state in which a coil is disposed inside a recovery tank of the refrigerant recovery device of FIG. 1;

Hereinafter, a refrigerant recovery apparatus including a refrigerant recovery tank in which the coil of the present invention is incorporated will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram showing a refrigerant recovery device according to an embodiment of the present invention, Figure 2 is a schematic view showing a coil disposed inside the recovery tank of the refrigerant recovery device of FIG.

1 and 2, the refrigerant recovery device of the present invention is a recovery tank 110 for primary storage of the refrigerant of the gas phase and liquid phase recovered from the waste object (not shown), and one side is connected to the waste object The other side is connected to the recovery tank 110, the recovery line 120 to provide a movement path for the refrigerant in the object to be moved to the recovery tank 110, the recovery tank 110 and the recovery line ( Interposed between the 120 to form the inside of the recovery tank 110 in the initial vacuum state to maintain the suction to improve the recovery rate of the refrigerant when the refrigerant flows into the recovery tank 110 from the waste object by the pressure difference. A recovery compressor 130, a cooling circuit 140 connected to the recovery tank 110 to phase-change into a liquid refrigerant by heat exchange with a refrigerant in a gaseous phase introduced into the recovery tank 110, and a recovery tank 110. Recovery tank connected with 110, and a controller (not shown) that controls the overall operation of the external storage container 150 and the refrigerant recovery apparatus for storing liquid refrigerant received in the supply.

In this case, the refrigerant recovery device is disposed in the order of the recovery line 120, the recovery tank 110, the cooling circuit 140 and the external storage container 150 in order from the waste object.

Hereinafter, the description of the general contents of the refrigerant recovery device or similar parts to those of the related art will be omitted, and the characteristic parts of the present invention will be described in detail.

The recovery line 120 may have a recovery port 121 formed at one end thereof to be detachably coupled to a waste object, and a plurality of recovery lines 120 may be connected to a plurality of waste objects at the same time.

In the vicinity of the recovery port 121, the recovery refrigerant pressure sensor 122 and the solenoid valve 123 are sequentially disposed.

The recovered refrigerant pressure detection sensor 122 may automatically start or stop a recovery operation of the refrigerant by detecting a pressure when the refrigerant is recovered from the waste object through the recovery port 121.

That is, when the recovery refrigerant pressure sensor 122 is out of the range set in advance to control the operation of the refrigerant recovery by controlling the opening and closing of the solenoid valve 123.

For example, when a value higher than a preset value is detected in the recovery refrigerant pressure sensor 122 while the waste object and the recovery port 121 are connected, the solenoid valve 123 recognizes that a refrigerant in the waste object exists. When the refrigerant is recovered and a value lower than the set value is detected, the refrigerant recovery in the waste object is completed and the solenoid valve 123 is closed.

In the conventional case, when the refrigerant recovery is completed, the operator changes the switch of the controller to the off state to stop the refrigerant recovery device, and then connects a new waste object to the recovery port to turn the switch on so that the operation of the refrigerant recovery device is performed again. However, in the present invention, since the solenoid valve 123 is automatically opened and closed according to the detected pressure in the recovered refrigerant pressure sensor 122, the refrigerant can be continuously recovered from the waste object without stopping the entire operation of the refrigerant recovery device. Has the advantage.

That is, the conventional refrigerant recovery device has the advantage that if the refrigerant recovery is made intermittently, the present invention can be continuously recovered without stopping the refrigerant recovery device.

On the other hand, the in-line filter 124 is interposed between the solenoid valve 123 and the recovery compressor 130 to filter the foreign matter contained in the refrigerant.

The recovery tank 110 recovers the refrigerant from the waste object by the pressure difference, and after the recovery tank 110 is initialized to a vacuum state by the driving of the recovery compressor 130, the recovery tank 110 to be described later. By directly cooling the inflow refrigerant through the coil 145 inside to reduce the pressure in the recovery tank 110 to collect the refrigerant by the pressure difference with the object to be discarded, for recovery to continue the suction to improve the recovery rate The compressor 130 is driven and collected.

The recovery tank 110 is provided with an internal pressure sensor 112 and a purge valve 111 so that the pressure inside the recovery tank 110 is greater than or greater than the preset pressure set in the internal pressure sensor 112. If detected, the purge valve 111 is automatically opened to lower the internal pressure.

The purge valve 111 may also function to discharge the remaining gas in the recovery tank 110 to the outside to secure the space occupied by the refrigerant flowing from the waste object.

In addition, the recovery tank 110 is provided with a temperature sensor 113 to control the operation of the cooling circuit 140 when out of the range of the preset value.

In addition, a load cell 114 is installed in the recovery tank 110, and when the predetermined amount of liquid refrigerant is filled in the recovery tank 110, the driving of the recovery compressor 130 is stopped and the external storage container 150 is disposed. Conveys the coolant in the liquid phase.

The cooling circuit 140 is a cooling compressor 141 connected to the recovery tank 110, a condenser 142 connected to the cooling compressor 141, one side is connected to the cooling compressor 141, the other side is It is connected to the condenser 142, and includes a coil 145 for circulating a liquid heat exchange refrigerant therein and an expansion valve 144 interposed between the coil 145 and the condenser 142.

Here, the coil 145 is disposed in the recovery tank 110, and the phase recovery refrigerant in the liquid phase is phased by a heat exchange between the refrigerant in the gas phase introduced into the recovery tank 110 and the heat exchange refrigerant in the coil 145. Convert

The coil 145 of the present invention may be disposed in the recovery tank 110 to directly exchange heat with the refrigerant in the gas phase to increase the phase conversion rate of the recovered gaseous refrigerant, and thus the final refrigerant to the external storage container 150. It has the advantage of facilitating recovery.

Meanwhile, a filter drier 143 may be interposed between the expansion valve 144 and the condenser 142 to remove heat and foreign matter included in the heat exchange refrigerant, thereby improving heat exchange efficiency in the recovery tank 110.

The external storage container 150 is detachably connected to the recovery tank 110 so that when the liquid refrigerant is quantitatively filled therein, the external storage container 150 is separated and replaced with a new external storage container 150.

Refrigerant recovery apparatus having the above structure is when the coil 145 of the cooling circuit 140 is disposed in the recovery tank 110 to phase-convert the gaseous refrigerant recovered from the waste object into the recovery tank 110 into a liquid refrigerant. Since the cooling is performed by the direct cooling method, the recovery speed of the refrigerant may be accelerated by improving the phase conversion speed of the recovered refrigerant.

In addition, the recovery refrigerant pressure detection sensor 122 and the solenoid valve 123 is installed in the recovery line 120 to automatically remove the solenoid valve 123 when it is out of the range of the preset pressure value when the refrigerant is recovered from the waste object. By opening and closing has the advantage of being able to perform a continuous refrigerant recovery operation.

In addition, a discharge path for discharging the remaining gas in the recovery tank 110 is formed so that the space occupied by the refrigerant flowing from the waste object is not disturbed by the remaining gas, and the refrigerant occupies the space occupied by the remaining gas. It is possible to improve the recovery rate of the refrigerant recovered into the recovery tank 150 than in the prior art.

Therefore, even if the refrigerant is recovered using the recovery tank 110 having the same size as the related art, the filling rate is high, and the recovery tank 110 does not need to be made larger than necessary, so that miniaturization is possible, thus saving resources and recovering the refrigerant. It also has the advantage of being efficient in transporting and storing the device.

110 ... Recovery Tank
111 ... Purge Valve
112 ... internal pressure sensor
113 ... Temperature sensor
114 ... load cell
120 ... recovery line
121 ... Recovery port
122. Recovery refrigerant pressure sensor
123 ... solenoid valve
130 ... Recovery Compressor
140 ... cooling circuit
141 ... Compressor for cooling
142 ... Condenser
143 ... filter drier
144 ... Expansion Stool
145 ... coil
150 ... External storage container

Claims (5)

A recovery tank for recovering the liquid and gaseous refrigerant from the waste object; A recovery line having one side connected to the recovery tank and the other side connected to the waste object to provide a transfer path of the refrigerant; A recovery compressor interposed in the recovery line to form the inside of the recovery tank in an initial vacuum state and suck the refrigerant from the waste object; A cooling circuit connected to the recovery tank to phase change the refrigerant in the gas phase introduced into the recovery tank into a liquid phase; And an external storage container connected to the recovery tank for receiving and storing the liquid refrigerant in the recovery tank.
The cooling circuit includes a cooling compressor connected to the recovery tank, a condenser connected to the cooling compressor, a coil connected to a cooling compressor on one side and a condenser connected to the condenser, and a liquid heat exchange refrigerant circulated therein. An expansion valve interposed between the coil and the condenser,
The coil is disposed in the recovery tank to allow rapid heat exchange between the refrigerant and the heat exchange refrigerant,
A recovery refrigerant pressure sensor and a solenoid valve are provided near the other side of the recovery line. When the recovery refrigerant pressure sensor is out of a preset pressure value when the refrigerant is recovered from the waste object, the opening and closing control of the solenoid valve is performed. And controlling the driving of the recovery compressor, opening the solenoid valve when the pressure value is exceeded, starting driving of the recovery compressor, closing the solenoid valve when the pressure is lower than the pressure value, and Refrigerant recovery device characterized in that the drive is stopped.
delete The method according to claim 1,
A load cell is installed in the recovery tank, and when a predetermined amount of refrigerant is filled in the recovery tank, the driving of the recovery compressor is stopped, and the refrigerant recovery device comprises transferring the liquid refrigerant to the external storage container. .
The method according to claim 1,
The recovery tank is provided with an internal pressure sensor and a purge valve is a refrigerant recovery device characterized in that the valve for the purge is automatically opened when a pressure value exceeding a value set in advance in the internal pressure sensor.
The method according to claim 1,
The recovery tank is provided with a temperature sensor, the refrigerant recovery device characterized in that the automatic control of the operation of the cooling circuit when out of the range of the preset value.

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